KR100643246B1 - Display apparatus - Google Patents

Abstract

A display device is provided to prevent the generation of the over-current of a backlight driver, by effectively disabling the driving of an LED(Light Emitting Diode) backlight when a voltage of a driving power for driving the backlight driver is lower than a predetermined voltage. A backlight driver(30) controls the driving of an LED backlight(20). A power supplier supplies a driving power to the backlight driver. A detector(40) detects a voltage of the driving power supplied to the backlight driver, and determines whether the voltage of the driving power is lower than a predetermined voltage. A controller controls at least one of the backlight driver and the power supplier to disable the driving of the LED backlight, if the voltage of the driving power is lower than the predetermined voltage based on the detection result of the detector.

Description

       Display Device {Display Apparatus}

1 is a control block diagram of a display apparatus according to a first embodiment of the present invention;

2 is a control block diagram of a display apparatus according to a second embodiment of the present invention;

3 is a control block diagram of a display apparatus according to a third embodiment of the present invention;

4 is a control flowchart of the display apparatus of FIG. 2 according to the second embodiment;

5 is a control flowchart of the display apparatus of FIG. 3 according to the third embodiment.

* Explanation of symbols for the main parts of the drawings

10, 10 ': power supply 20: LED backlight

30, 30 ': backlight driver 40: detector

45: comparison unit 50, 50 ', 50 ": control unit

52: FPGA 55: Microcomputer

60: notification unit 62: OSD generation unit

65: melody generation unit

The present invention relates to a display device having an LED backlight, and more particularly, to effectively disable the driving of the LED backlight when the driving power supplied to the backlight driver is less than a predetermined size, thereby preventing overcurrent generation of the backlight driver. The present invention relates to a display device capable of preventing confusion of a user by informing driving enable / disable switching of an LED backlight.

In order to improve color reproduction, display apparatuses are used as a material of a backlight, and a change from a conventional CCFL (Cold Cathode Flourscent Lamp) to a LED (Light Emitting Diode) device is used.

As such, the display device including the LED backlight using the LED device, the performance of the color reproduction is improved by using the LED backlight, but due to the nature of the LED device emits a lot of heat, it is urgently required to secure the reliability corresponding to the degradation problem.

Here, a description will be given of a conventional display device having an LED backlight. Conventional display apparatuses include a backlight driver for driving the LED backlight. Accordingly, when a driving power (eg, 160V) is supplied to the backlight driver for driving the LED backlight, the backlight driver outputs a control signal to the LED backlight using the driving power (eg, 160V). In this case, the display device may supply a driving power (160-X V) lower than the normal driving power (eg, 160V) to the backlight driver due to an operation change or any error. At this time, the backlight driving unit generates a constant current from the driving power to control the driving of the LED backlight, so that the backlight driving unit is lowered in the amount of the lowered power (x V) of the supplied driving power (160-x V). Proportional more current draws more from the old coin source (160-x V). Thus, the LED device of the LED backlight generates a large amount of heat.

Accordingly, in the conventional display apparatus, when the magnitude of the constant current generated by the backlight driver is increased by using the driving power, and reaches a predetermined size (for example, 4A), the power management system SMPS of the display apparatus. The overcurrent protection circuit operates and the display device is turned off.

That is, in the conventional display device, when the driving power (160-x V) lower than the normal driving power (for example, 160V) is supplied to the backlight driver and the backlight driver generates an overcurrent, the display device may turn off the entire power of the display device. Prevent deterioration of the LED backlight.

Thus, in the conventional display device, when the backlight driver generates an overcurrent, an excessive operation necessary to turn off the entire power supply of the display device may be performed, so that the display device needs to be rebooted in order to use the display device. In addition, in this case, since the user does not know why the entire power of the display apparatus is turned off, there is a difficulty in confusion in using the display apparatus.

Accordingly, an object of the present invention is to provide a display device capable of effectively disabling the driving of an LED backlight when the driving power supplied to the backlight driver is less than a predetermined size, thereby preventing overcurrent generation of the backlight driver.

In addition, another object of the present invention is to provide a display device that can prevent the user confusion by informing the drive enable / disable switching of the LED backlight.

The above object is a display device having an LED backlight, comprising: a backlight driver for controlling driving of the LED backlight; A power supply unit supplying driving power to the backlight driver; A sensing unit which senses a voltage of the driving power supplied to the backlight driving unit and compares whether the voltage of the driving power is less than or equal to a predetermined voltage size; A control unit for controlling at least one of the backlight driver and the power supply unit to disable driving of the LED backlight when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage based on a detection result of the sensing unit. It is achieved by a display device comprising a.

Here, the control unit, FPGA (Field Programmable) for controlling the backlight driver to disable the driving of the LED backlight, if it is determined that the voltage of the driving power is less than the predetermined voltage based on the detection result of the sensing unit Gate array).

In addition, the backlight driver, it is preferable to disable the driving of the LED backlight according to the disable control from the FPGA.

Herein, when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage level, the control unit supplies the driving power to the backlight driving unit to disable driving of the LED backlight based on the sensing result of the sensing unit. It is preferable to include a microcomputer to control the power supply to block the.

The microcomputer may be configured to disable the driving of the LED backlight when the determination that the voltage of the driving power supply is equal to or less than the predetermined voltage occurs a predetermined number of times during a predetermined time, based on a sensing result of the sensing unit. Preferably, the power supply unit is controlled to block the driving power supplied to the backlight driver.

In addition, the microcomputer preferably controls the power supply unit to switch the driving mode of the display apparatus to the standby mode in order to disable the driving of the LED backlight.

Here, the sensing unit senses the voltage of the driving power supplied to the backlight driver and compares the voltage of the driving power with a reference voltage of the predetermined magnitude, and the high signal when the voltage of the driving power is smaller than the reference voltage. Preferably it includes a comparison unit for outputting the control unit.

In addition, further comprising a notification unit for notifying the over temperature state of the LED backlight; The controller may control the notification unit to notify an over temperature state of the LED backlight when the LED backlight is to be deactivated based on the detection result of the detector.

The controller may be configured to determine a normal temperature state of the LED backlight when it is determined that the voltage of the driving power is greater than or equal to the predetermined voltage size based on a sensing result of the sensing unit in a state where the driving of the LED backlight is disabled. It is preferable to control the notification unit to notify.

The notification unit may include an OSD generation unit generating an OSD overtemperature / normal temperature message and an OSD normal temperature state message for indicating an overtemperature / normal temperature state of the LED backlight, and informing the overtemperature / normal temperature state of the LED backlight. It is preferable to include at least one of the melody generating unit for generating an over-temperature notification notification melody and the steady-state notification notification melody.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a control block diagram of a display apparatus according to a first embodiment of the present invention. As shown in the figure, the display device according to the first embodiment of the present invention includes a LED backlight 20, a backlight driver 30 for controlling the driving of the LED backlight 20, and a backlight driver 30 A power supply unit 10 ′ that supplies driving power (eg, 160V) and a sensing unit that senses a voltage of the driving power supplied to the backlight driver 30 and detects whether the voltage of the driving power is below a predetermined voltage level. 40 and the backlight driver 30 to disable the driving of the LED backlight 20 when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage based on the detection result of the detector 40. And a controller 50 "for controlling at least one of the power supply units 10 '.

The LED backlight 20 is preferably configured to include a plurality of LED portions 20a (first LED portion, second LED portion, ... nth LED portion) including a plurality of LED elements (not shown).

The power supply unit 10 ′ supplies driving power (eg, 160V) to the backlight driver 30, and drives corresponding to each of the various circuit units (not shown) that perform each function in the display device. Supply power.

The backlight driver 30 is a driver controlling the driving of the LED backlight 20. The backlight driver 30 generates a constant current from the driving power (eg, 160V) supplied from the power supply unit 10 ′ and converts the constant current into the LED backlight 20. Is applied to control the driving of the LED backlight 20. Here, when the disable signal is input from the controller 50, the backlight driver 30 disables the current applied to the LED backlight 20 so that the current applied to the LED backlight 20 becomes "0". It is desirable to disable driving of the LED backlight 20. In addition, when the enable signal is input from the controller 50, the backlight driver 30 controls the driving of the LED backlight 20 so that the LED backlight 20 is normally driven.

The detector 40 detects a voltage of the driving power supplied to the backlight driver 30 and compares whether the voltage of the driving power is less than or equal to a predetermined voltage size. The detector 40 may include resistance distribution circuits R1 and R2 for detecting a predetermined comparison driving power using the driving power (eg, 160V) supplied to the backlight driver 30, and a resistance distribution circuit ( The voltage of the predetermined comparison driving power source detected through R1 and R2 is compared with the reference voltage V1 having a predetermined magnitude, and a high signal is output when the voltage of the predetermined comparison driving power source is less than or equal to the reference voltage V1. Comparing unit 45 is included.

The controller 50 ″, when a high signal is input from the comparator 45 based on the detection result of the detector 40, that is, the voltage of the predetermined comparison drive power is less than or equal to the reference voltage V1. If it is determined that the output signal to the backlight driver 30, the controller (30) to control the backlight driver 30 so as to disable the driving of the LED backlight 20 to the field programmable gate array (FPGA) 52 Include.

The FPGA 52 determines that the voltage of the predetermined comparison driving power source is greater than or equal to the reference voltage V1 based on the detection result of the sensing unit 40 when the driving of the LED backlight 20 is disabled. In other words, when the low signal is input from the comparator 45, it is possible to output the enable signal to the backlight driver 30 to control the backlight driver 30 to enable driving of the LED backlight 20. desirable.

Therefore, according to the present invention, when the driving power supplied to the backlight driver 30 is lowered below a predetermined allowable value from the size of the normal driving power (eg, 160V), it is necessary to turn off the entire power supply of the display apparatus as in the prior art. Only the drive of the LED backlight 20 can be disabled without performing the above excessive operation.

Herein, when the high signal is input from the comparator 45 based on the detection result of the detector 40, the controller 50 ″ supplies the driving power (eg, 160V) supplied to the backlight driver 30. And a microcomputer 55 outputting a PWM signal for controlling the power supply 10 'to the power supply 10' to disable the LED backlight 20 from being driven.

Herein, when the high signal is input from the comparator 45 based on the sensing result of the sensing unit 40, the microcomputer 55 switches the driving mode of the display device from the normal mode to the standby mode. ) By outputting a PWM signal to control the power supply (10 '), it is also possible to cut off the drive power (for example 160V) supplied to the backlight driver 30.

In addition, the microcomputer 55 blocks the driving power (eg, 160V) supplied to the backlight driver 30 or controls the roll power supply 10 'to switch the driving mode of the display device to the standby mode. When the low signal is input from the comparator 45 while the drive of the 20 is disabled, the driving power (eg, 160 V) is supplied to the backlight driver 30 or the display mode is normally driven. It is preferable to enable driving of the LED backlight 20 by PWM controlling the power supply 10 'to switch to the mode.

Thus, according to the present invention, when the driving power supplied to the backlight driver 30 is lowered below a predetermined allowable value from the normal driving power (eg, 160V), the backlight driver 30 is operated through the operation of the FPGA 52. ) Is disabled so that the current applied to the LED backlight 20 becomes "0", and also switches to the standby mode or cuts off the power supplied to the backlight driver 30 to dually drive the LED backlight 20. Can be disabled.

In addition, the display device according to the first embodiment of the present invention, further includes a notification unit 60 for notifying the over temperature state of the LED backlight 20, the controller 50 "of the sensing unit 40 When it is desired to disable the driving of the LED backlight 20 based on the detection result, it is possible to control the notification unit 60 to notify the over temperature state of the LED backlight 20.

Here, the notification unit 60, the OSD generation unit 62 for generating an OSD over-temperature status message and OSD normal temperature status message for informing the over temperature / normal temperature state of the LED backlight 20, and the LED backlight 20 It is possible to include at least one of the over-temperature state notification melody for notifying the over-temperature / normal temperature state of the) and the melody generating unit 65 for generating a normal temperature state notification melody.

Accordingly, when the microcomputer 55 attempts to disable the driving of the LED backlight 20, the microcomputer 55 may display at least one of the OSD generator 62 and the melody generator 65 to notify the over temperature state of the LED backlight 20. Either one can be controlled. In addition, the microcomputer 55 determines that the voltage of the predetermined comparison driving power is greater than or equal to the reference voltage V1 based on the sensing result of the sensing unit 40 while the driving of the LED backlight 20 is disabled. At least one of the OSD generator 62 and the melody generator 65 may be controlled to notify the normal temperature state of the LED backlight 20.

Accordingly, the display device of the present invention, when the driving power supplied to the backlight driving unit 30 is lowered below a predetermined allowable value from the size of the normal driving power (for example 160V), the LED backlight 20 is in an over temperature state. By alerting the user, the user can avoid confusion and take appropriate action. In addition, in the display device of the present invention, when the driving of the LED backlight 20 is disabled, normal driving power (eg, 160V) is supplied to the backlight driver 30 so that the LED backlight 20 is in a normal temperature state. By notifying the user of the situation, the user can prevent confusion and take appropriate action.

The display device of the present invention according to the first embodiment has a configuration in which the controller 50 "includes both the FPGA 52 and the microcomputer 55, or has only one of the FPGA 52 and the microcomputer 55. The effects of the present invention can also be seen through the configuration, which will be described with reference to Figs. 2 to 5. Prior to the description, a configuration having the same function as the first embodiment is shown with the same name and the same reference numeral. The function will be briefly described.

2 is a control block diagram of a display apparatus according to a second embodiment of the present invention. As shown in the figure, the display device according to the second embodiment of the present invention includes a LED backlight 20, a backlight driver 30 for controlling the driving of the LED backlight 20, and a backlight driver 30 A power supply unit 10 for supplying driving power (eg, 160V) and a sensing unit for sensing a voltage of the driving power supplied to the backlight driver 30 and detecting whether the voltage of the driving power is below a predetermined voltage size ( 40 and the backlight driver 30 is controlled to disable driving of the LED backlight 20 when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage level based on the detection result of the detector 40. The control unit 50 is included.

The backlight driver 30 is a driver that controls driving of the LED backlight 20 as in the first embodiment. When the disable signal is input from the controller 50, the backlight driver 30 applies a current to the LED backlight 20. It is preferable to disable the drive of the LED backlight 20 by disabling it so that the current applied to the LED backlight 20 becomes "0". In addition, when the enable signal is input from the controller 50, the backlight driver 30 controls the driving of the LED backlight 20 so that the LED backlight 20 is normally driven.

The controller 50 controls the backlight driver 30 to output the disable signal to the backlight driver 30 when the high signal is input from the comparator 45 to disable the driving of the LED backlight 20. An FPGA (Field Programmable Gate Array) 52 is included as a controller. The FPGA 52 outputs an enable signal to the backlight driver 30 when the low signal is input from the comparator 45 when the driving of the LED backlight 20 is disabled. It is desirable to control the backlight driver 30 to enable driving.

Thus, according to the second embodiment of the present invention, when the driving power supplied to the backlight driver 30 is lowered below a predetermined allowable value from the normal driving power (eg, 160V), the operation of the FPGA 52 is stopped. Through this, the backlight driver 30 may be disabled.

The control flow of the display apparatus (FIG. 2) according to the second embodiment of the present invention having such a configuration will be described with reference to FIG. First, the display apparatus of the present invention normally drives the LED backlight 20 as a normal normal mode (S10). At this time, the FPGA 52 detects a predetermined comparison detected through the resistance distribution circuits R1 and R2 using the driving power supplied to the backlight driver 30 according to the high / low signal input from the comparator 45. It is determined whether the driving power voltage is less than or equal to the reference voltage V1 of a predetermined size (S20). When the high signal is input from the comparator 45, the FPGA 52 outputs the disable signal to the backlight driver 30 (S50). Accordingly, the backlight driver 30 disables the driving of the LED backlight 20 by controlling the current applied to the LED backlight 20 to be "0" (S40). Subsequently, the FPGA 52 continuously determines whether the predetermined comparison driving power voltage is less than or equal to the reference voltage V1 of a predetermined magnitude, according to the high / low signal input from the comparator 45 (S50). Therefore, the FPGA 52 according to the high / low signal input from the comparator 45 in the state in which the driving of the LED backlight 20 is disabled (after step S40), the voltage magnitude of the predetermined comparison driving power source is increased. When it is determined that the reference voltage V1 is not equal to or smaller than the reference voltage V1, it is preferable to output an enable signal to the backlight driver 30 and enter the step S10 of driving the LED backlight 20 normally.

Through this process, the display device according to the present invention, when the driving power supplied to the backlight driver 30 is lowered below a predetermined allowable value from the size of the normal driving power (for example 160V), the display device as in the prior art Only the drive of the LED backlight 20 can be disabled without performing excessive operation which is necessary to turn off the entire power supply.

 3 is a control block diagram of a display apparatus according to a third embodiment of the present invention. As shown in the figure, the display device according to the third embodiment of the present invention includes an LED backlight 20, a backlight driver 30 'for controlling the driving of the LED backlight 20, and a backlight driver 30'. Sensing the voltage of the driving power supplied to the driving power supply (10 ') for supplying driving power (e.g. 160V) and the backlight driving part 30' and detecting whether the voltage of the driving power is below a predetermined voltage level. On the basis of the sensing unit 40 and the detection result of the sensing unit 40, when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage level, the power supply unit is configured to disable driving of the LED backlight 20. And a controller 50 'for controlling 10').

The backlight driver 30 ′ is a driver that controls the driving of the LED backlight 20. The backlight driver 30 ′ generates a constant current from the driving power source (eg, 160 V) supplied from the power supply unit 10 ′ and uses the constant current. The driving of the LED backlight 20 is controlled.

The controller 50 ′ cuts off the driving power (eg, 160 V) supplied to the backlight driver 30 ′ when a high signal is input from the comparator 45 based on the detection result of the detector 40. And a microcomputer 55 for outputting a PWM signal for controlling the power supply 10 'to the power supply 10' and disabling the driving of the LED backlight 20.

Herein, when the high signal is input from the comparator 45, the microcomputer 55 outputs a PWM signal for controlling the power supply unit 10 ′ to switch the driving mode of the display device from the normal mode to the standby mode. 10 ') and cuts off the driving power (eg, 160V) supplied to the backlight driver 30'.

Thus, according to the third embodiment of the present invention, when the driving power supplied to the backlight driving unit 30 'is lowered below a predetermined allowable value from the normal driving power (for example, 160V), it switches to the standby mode or the backlight It is possible to disable driving of the LED backlight 20 by cutting off only the power supplied to the driver 30 ′.

At this time, the microcomputer 55 determines, based on the detection result of the sensing unit 40, that the voltage size of the predetermined comparison driving power is less than or equal to the reference voltage V1 for a predetermined time (for example, 20 ms). When more than the number of times (for example, five times) occurs, in order to disable the driving of the LED backlight 20, the driving power (for example, 160V) supplied to the backlight driver 30 'is cut off or the driving mode of the display device is turned off. It is preferable to control the power supply 10 'to switch to the standby mode.

Through this operation, the driving power is continuously lowered due to an operation change or any error, except that the driving power is momentarily lowered below the predetermined allowable value due to a temporary malfunction, and the normal operating power (eg, 160 V) is supplied again. Only when lowering below the predetermined allowable value, it is possible to disable the operation of the LED backlight 20.

Of course, when the determination that the voltage level of the predetermined comparison driving power is less than or equal to the reference voltage V1 occurs for a predetermined number of times (for example, five times) for a predetermined time (for example, 20 ms), the LED backlight 20 The operation of disabling the driving of is not described in the first and second embodiments, but this is only an embodiment. That is, the microcomputer 55 or FPGA 52 of the first embodiment and the FPGA 52 of the second embodiment also determine that the voltage magnitude of the predetermined comparative driving power source is equal to or less than the reference voltage V1 for a predetermined time ( For example, it is possible to disable driving of the LED backlight 20 only when a predetermined number of times (for example, five times) occurs during 20 ms).

In addition, the display device according to the third embodiment of the present invention, the OSD generating unit 62 for generating the OSD over-temperature status message and the OSD normal temperature status message, and generates an over-temperature status notification melody and a normal temperature status notification melody It further comprises a notification unit 60 including a melody generating unit 65.

Accordingly, when the microcomputer 55 attempts to disable the driving of the LED backlight 20, the microcomputer 55 may display at least one of the OSD generator 62 and the melody generator 65 to notify the over temperature state of the LED backlight 20. Either one can be controlled. In addition, the microcomputer 55 determines that the voltage of the predetermined comparison driving power is greater than or equal to the reference voltage V1 based on the sensing result of the sensing unit 40 while the driving of the LED backlight 20 is disabled. At least one of the OSD generator 62 and the melody generator 65 may be controlled to notify the normal temperature state of the LED backlight 20.

The control flow of the display apparatus (see FIG. 3) according to the third embodiment of the present invention having such a configuration will be described with reference to FIG. First, the display apparatus of the present invention normally drives the LED backlight 20 as a normal normal mode (S110). At this time, the microcomputer 55 detects the predetermined values detected through the resistance distribution circuits R1 and R2 using the driving power supplied to the backlight driver 30 'according to the high / low signal input from the comparator 45. It is determined whether the comparison driving power supply voltage size is equal to or less than a reference voltage V1 of a predetermined size (S120). The microcomputer 55 determines that the voltage of the predetermined comparative driving power source is equal to or less than the reference voltage V1 (referred to as Case 1 for convenience of description) for a predetermined number of times (for example, five times) for a predetermined time (for example, 20 ms). It is determined whether the above occurs (S130). When (Case 1) occurs more than a predetermined number of times (for example, five times) for a predetermined time (for example, 20 ms), the microcomputer 55 controls the notification unit 60 to notify the over temperature state of the LED backlight 20. (S132). Thus, the user recognizes the over temperature state of the LED backlight 20 through the notification unit 60 and selects the power off to cool the over temperature of the LED backlight 20, thereby turning off the display device (S137). ).

Alternatively, after a predetermined time (2 seconds) has elapsed after the step (S132), the microcomputer 55 determines whether the LED backlight 20 is still being driven (S135). If power off is selected by the user, the LED backlight 20 will not be driven. When the LED backlight 20 is being driven, the microcomputer 55 controls the power supply unit 10 ′ to switch the driving mode of the display device to the standby mode (S140). Of course, the driving power supplied to the backlight driver 30 'is also cut off in the standby mode. As a result, the driving of the LED backlight 20 is disabled.

Thereafter, the microcomputer 55 according to the high / low signal input from the comparator 45 has a reference voltage V1 having a predetermined magnitude of the comparative driving power supply voltage detected by the resistance distribution circuits R1 and R2. Continuously determine whether or not (S150). Accordingly, the microcomputer 55 according to the high / low signal input from the comparator 45 in the standby mode (after step S140) in which the driving of the LED backlight 20 is disabled, the voltage level of the predetermined comparison driving power source. If it is determined that is not less than the magnitude of the reference voltage (V1), and controls the notification unit 60 to notify the normal temperature state of the LED backlight 20 (S152). Thereafter, the microcomputer 55 controls the power supply unit 10 'to switch the driving mode of the display apparatus to the normal mode so that the LED backlight 20 is normally driven, and enters the step S110.

Through this process, the display device according to the present invention, when the driving power supplied to the backlight driver 30 ′ is lowered below a predetermined allowable value from the size of the normal driving power (eg, 160V), the display device as in the prior art It is possible to disable the driving of the LED backlight 20 by switching to the standby mode without performing excessive operation more than necessary to turn off the entire power supply. In addition, according to the present invention, by notifying the user when the LED backlight 20 is in the over-temperature state / normal temperature state, it is possible to prevent the user from confusion and respond appropriately.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that the embodiments may be modified without departing from the spirit or spirit of the invention. .

As described above, according to the present invention, when the driving power supplied to the backlight driver is less than a predetermined size, effectively disabling the driving of the LED backlight, preventing overcurrent generation of the backlight driver, and enabling / disabling the driving of the LED backlight. It is possible to provide a display device that can notify the changeover and prevent user confusion.

Claims (10)

A display device having an LED backlight, A backlight driver for controlling driving of the LED backlight; A power supply unit supplying driving power to the backlight driver; A sensing unit which senses a voltage of the driving power supplied to the backlight driving unit and compares whether the voltage of the driving power is less than or equal to a predetermined voltage size; A control unit for controlling at least one of the backlight driver and the power supply unit to disable driving of the LED backlight when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage based on a detection result of the sensing unit. Display device comprising a. The method of claim 1, The control unit, And a field programmable gate array (FPGA) for controlling the backlight driver to disable driving of the LED backlight when it is determined that the voltage of the driving power is less than or equal to the predetermined voltage size based on a sensing result of the sensing unit. Display device, characterized in that. The method of claim 2, The backlight driver, And disabling driving of the LED backlight according to the disable control from the FPGA. The method according to claim 1 or 3, The control unit, When the voltage of the driving power is determined to be less than or equal to the predetermined voltage based on the sensing result of the sensing unit, supplying the power to cut off the driving power supplied to the backlight driver to disable driving of the LED backlight. A display device comprising a microcomputer for controlling the wealth. The method of claim 4, wherein The microcomputer, Based on a sensing result of the sensing unit, when it is determined that the voltage of the driving power supply is equal to or less than the predetermined voltage level a predetermined number of times during a predetermined time, the supplying to the backlight driver to disable driving of the LED backlight. And controlling the power supply to cut driving power. The method of claim 5, The microcomputer, And controlling the power supply unit to switch the driving mode of the display apparatus to the standby mode to disable driving of the LED backlight. The method of claim 6, The detection unit, Detecting a voltage of the driving power supplied to the backlight driver and comparing the voltage of the driving power with a reference voltage having a predetermined magnitude, and outputting a high signal when the voltage of the driving power is smaller than the reference voltage; Display device comprising a comparison unit. The method of claim 7, wherein A notification unit for notifying an over temperature state of the LED backlight; The control unit, And a display unit configured to notify an over temperature state of the LED backlight when the LED backlight is to be deactivated based on a detection result of the detector. The method of claim 8, The control unit, If it is determined that the driving of the LED backlight is disabled, and it is determined that the voltage of the driving power is greater than or equal to the predetermined voltage size based on a sensing result of the sensing unit, the notification unit is controlled to notify the normal temperature state of the LED backlight. Display device, characterized in that. The method of claim 9, The notification unit, An OSD generating unit for generating an OSD overtemperature / normal temperature state message and an OSD normal temperature state message for informing the over temperature / normal temperature state of the LED backlight, and an overtemperature state notification melody for informing the overtemperature / normal temperature state for the LED backlight And at least one of a melody generating unit generating a normal temperature state notification melody.

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